Search results for "Single-molecule biophysics"

showing 2 items of 2 documents

Biophysics of high density nanometer regions extracted from super-resolution single particle trajectories: application to voltage-gated calcium chann…

2019

AbstractThe cellular membrane is very heterogenous and enriched with high-density regions forming microdomains, as revealed by single particle tracking experiments. However the organization of these regions remain unexplained. We determine here the biophysical properties of these regions, when described as a basin of attraction. We develop two methods to recover the dynamics and local potential wells (field of force and boundary). The first method is based on the local density of points distribution of trajectories, which differs inside and outside the wells. The second method focuses on recovering the drift field that is convergent inside wells and uses the transient field to determine the…

0301 basic medicineField (physics)1.1 Normal biological development and functioningHigh densityBoundary (topology)lcsh:Medicine32 Biomedical and Clinical SciencesLocal field potentialArticleQuantitative Biology::Cell BehaviorQuantitative Biology::Subcellular ProcessesComputational biophysics03 medical and health sciences0302 clinical medicineSingle-molecule biophysics1 Underpinning researchlcsh:SciencePhysicsMultidisciplinary3208 Medical PhysiologyVoltage-dependent calcium channelFOS: Clinical medicinelcsh:RNeurosciencesScientific data030104 developmental biologyParticleNanometrelcsh:QBiological systemBiological physics51 Physical Sciences030217 neurology & neurosurgeryEnergy (signal processing)
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Precision and accuracy of single-molecule FRET measurements-a multi-laboratory benchmark study

2018

Single-molecule Forster resonance energy transfer (smFRET) is increasingly being used to determine distances, structures, and dynamics of biomolecules in vitro and in vivo. However, generalized protocols and FRET standards to ensure the reproducibility and accuracy of measurements of FRET efficiencies are currently lacking. Here we report the results of a comparative blind study in which 20 labs determined the FRET efficiencies (E) of several dye-labeled DNA duplexes. Using a unified, straightforward method, we obtained FRET efficiencies with s.d. between +/- 0.02 and +/- 0.05. We suggest experimental and computational procedures for converting FRET efficiencies into accurate distances, and…

0301 basic medicinePHOTON DISTRIBUTIONDYNAMICSAccuracy and precisionTechnologyBiophysicsRESONANCE ENERGY-TRANSFERBiochemistryMedical and Health SciencesArticle03 medical and health sciencesBlind studySingle-molecule biophysicsALTERNATING-LASER EXCITATIONSTRUCTURAL INFORMATIONFluorescence resonance energy transferDEPENDENCEQuantitative assessmentLife ScienceFLUORESCENCEStructure determinationMolecular BiologyQCVLAGBiophysical methodsReproducibilityReproducibility of ResultsCell BiologySingle-molecule FRETDNABiological SciencesPublisher CorrectionQPSPECTROSCOPIC RULER030104 developmental biologyFörster resonance energy transferBiofysicaBenchmark (computing)Photon distributionEPSREFRACTIVE-INDEXLaboratoriesBiological systemBiotechnologyDevelopmental Biology
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